Class / Patent application number | Description | Number of patent applications / Date published |
361089000 | With time delay protective means | 6 |
20080304195 | Power abnormal protection circuit - A power abnormal protection circuit includes a power detection unit, a voltage drop correction unit, a drop out detection unit, a delay unit and a delay masking unit. By detecting an input power average value of a power supply occurring of a brown out condition can be determined. The power supply includes a power factor correction unit which has an output capacitor. By detecting the voltage of the output capacitor a drop out condition can be determined. When a power abnormal condition occurs all units of the power supply can be set off sequentially according to a delay time to protect circuit elements and a connecting computer. | 12-11-2008 |
20080316665 | Delay Time Control Circuit in a Battery Protector to Reduce Delay Time - A battery protection IC using charging control pin, Cout, so as to reduce delay time during CP test or FT test for is disclosed. The battery protection IC has a delay time control circuit including a comparator and a delay signal selector. The comparator has a negative input terminal connected to VCC, a positive input terminal connected with the Cout pin and an output terminal connected to the delay signal selector. To perform foregoing test, a voltage source is added to activate the short delay time mode rather than a normal delay time one. | 12-25-2008 |
20130155560 | Semiconductor Device - In a semiconductor device, a surge voltage is lowered on turning OFF of a switching element, and output current is reduced on turning ON of the switching element in a non-saturated condition to achieve a reduced amount of self-heating. The semiconductor device can comprise a semiconductor switching element, an overvoltage protection circuit, and a resistance circuit to transmit a control signal for turning the switching element ON and OFF to a control terminal of the switching element. The semiconductor device can further comprise a voltage detecting switch that receives a signal corresponding to a voltage appearing at the output terminal of the switching element on turning OFF of the switching element, and a gate resistor change-over switch that operates according to a voltage of a timing capacitor connected to the output side of the voltage detecting switch to increase a resistance value of the resistance circuit. | 06-20-2013 |
20150311694 | Security System Output Interface with Overload Detection and Protection - An output interface circuit for a security panel. The output interface circuit includes an output switch for activating one or more output devices in response to a control signal from a port controller. The output interface circuit also includes an overload detection circuit for deactivating the one or more output devices in response to determining that a magnitude of a voltage associated with the one or more output devices exceeds an overload threshold voltage. The overload detection circuit comprises a protection switch for rendering the output switch non or less conductive thereby preventing damage to the output switch and possibly deactivating the one or more output devices when the voltage associated with the one or more output devices exceeds the overload threshold voltage. | 10-29-2015 |
20160164274 | Overvoltage Notching of Electricity Delivered to an Electrical Load - To protect an electrical load from anomalous electricity provided by an electricity source, a switching mechanism is configured to transition into one of conducting and non-conducting states in response to respective on and off states of a switching signal. A power controller evaluates input frequency characteristics of an overvoltage event in input electricity provided by the electricity source against at least one frequency criterion. Event timing is established for the timing signal that corresponds to the frequency characteristics met by the frequency threshold criterion. The event timing coordinates the overvoltage event with the state transitions of the switching mechanism so that an amplitude notch is superimposed on the input electricity over a temporal duration proportionate to that of the overvoltage event. State transitions are compelled in the switching mechanism to superimpose the amplitude notch on the input electricity in accordance with the event timing. | 06-09-2016 |
20180026623 | SOLID STATE SWITCH SYSTEM | 01-25-2018 |